EP0016991A2 - Tyre pressure monitoring device - Google Patents

Tyre pressure monitoring device Download PDF

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Publication number
EP0016991A2
EP0016991A2 EP80101118A EP80101118A EP0016991A2 EP 0016991 A2 EP0016991 A2 EP 0016991A2 EP 80101118 A EP80101118 A EP 80101118A EP 80101118 A EP80101118 A EP 80101118A EP 0016991 A2 EP0016991 A2 EP 0016991A2
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EP
European Patent Office
Prior art keywords
transmitter
wheel
monitoring
tire
vehicle
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP80101118A
Other languages
German (de)
French (fr)
Other versions
EP0016991B1 (en
EP0016991A3 (en
Inventor
Bengt Olof Larsson
Per Engdahl
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Siemens AG
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Siemens AG
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Filing date
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Publication of EP0016991A2 publication Critical patent/EP0016991A2/en
Publication of EP0016991A3 publication Critical patent/EP0016991A3/en
Application granted granted Critical
Publication of EP0016991B1 publication Critical patent/EP0016991B1/en
Expired legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60CVEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
    • B60C23/00Devices for measuring, signalling, controlling, or distributing tyre pressure or temperature, specially adapted for mounting on vehicles; Arrangement of tyre inflating devices on vehicles, e.g. of pumps or of tanks; Tyre cooling arrangements
    • B60C23/005Devices specially adapted for special wheel arrangements
    • B60C23/007Devices specially adapted for special wheel arrangements having multiple wheels arranged side by side
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60CVEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
    • B60C23/00Devices for measuring, signalling, controlling, or distributing tyre pressure or temperature, specially adapted for mounting on vehicles; Arrangement of tyre inflating devices on vehicles, e.g. of pumps or of tanks; Tyre cooling arrangements
    • B60C23/02Signalling devices actuated by tyre pressure
    • B60C23/04Signalling devices actuated by tyre pressure mounted on the wheel or tyre
    • B60C23/0408Signalling devices actuated by tyre pressure mounted on the wheel or tyre transmitting the signals by non-mechanical means from the wheel or tyre to a vehicle body mounted receiver
    • B60C23/0422Signalling devices actuated by tyre pressure mounted on the wheel or tyre transmitting the signals by non-mechanical means from the wheel or tyre to a vehicle body mounted receiver characterised by the type of signal transmission means
    • B60C23/0423Photo-electric, infrared or visible light means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60CVEHICLE TYRES; TYRE INFLATION; TYRE CHANGING; CONNECTING VALVES TO INFLATABLE ELASTIC BODIES IN GENERAL; DEVICES OR ARRANGEMENTS RELATED TO TYRES
    • B60C23/00Devices for measuring, signalling, controlling, or distributing tyre pressure or temperature, specially adapted for mounting on vehicles; Arrangement of tyre inflating devices on vehicles, e.g. of pumps or of tanks; Tyre cooling arrangements
    • B60C23/02Signalling devices actuated by tyre pressure
    • B60C23/04Signalling devices actuated by tyre pressure mounted on the wheel or tyre
    • B60C23/0408Signalling devices actuated by tyre pressure mounted on the wheel or tyre transmitting the signals by non-mechanical means from the wheel or tyre to a vehicle body mounted receiver
    • B60C23/0422Signalling devices actuated by tyre pressure mounted on the wheel or tyre transmitting the signals by non-mechanical means from the wheel or tyre to a vehicle body mounted receiver characterised by the type of signal transmission means
    • B60C23/0433Radio signals
    • B60C23/0447Wheel or tyre mounted circuits
    • B60C23/0455Transmission control of wireless signals
    • B60C23/0459Transmission control of wireless signals self triggered by motion sensor

Definitions

  • the invention relates to a device for tire pressure monitoring with a transmitter on the axle of the motor vehicle for the wireless transmission of a signal dependent on the tire pressure to a receiver on the vehicle frame.
  • the known devices generally use radio frequency transmitters, which are controlled by a tire pressure sensor and act on a receiver mounted in the vehicle, which triggers a display on the dashboard as soon as an impermissible pressure drop occurs.
  • the known devices with wireless radio frequency transmission have the disadvantage that only very low radio frequency energies may be used, so that the radio frequency energy from interferers located in the vicinity, such as ignition disturbances of other vehicles, electrical trains and the like. The radio can severely impair Strong electrical discharges can also destroy the transmitter and receiver.
  • the invention is based on the knowledge that a wireless connection can be established with infrared transmission, which is not susceptible to interference even with low transmission energy, and cannot be disturbed by other message transmissions and ignition disturbances, or does not disturb it itself.
  • the device according to the invention is characterized in that the transmitting device is equipped with an infrared source, in particular an infrared light-emitting diode, and in that the transmitter emits a modulated signal which is dependent on the pressure of one or more tires.
  • an infrared source in particular an infrared light-emitting diode
  • 5a is a transmitter for double tires
  • 5b is a transmitter for single tires.
  • Fig. 2a the monitoring arrangement for a double-tire wheel is shown schematically.
  • the transmitting device 5a which will be explained in more detail later, has hose connections 6 to the valves 7 of the tires 8.
  • the device 5a has filler neck 9 for checking and refilling the tire air, and furthermore the device 5a contains the transmitter, which transmits the monitoring signals by means of an infrared transmission source 10 sends to the receiver 11.
  • An infrared semiconductor diode as is commercially available for television receivers and remote controls, is expediently used as the infrared transmission source 10.
  • the receiver 11 contains an infrared-sensitive photodiode, the sensitivity and reception solid angle of which is dimensioned such that both the direct radiation from the source 10 and the reflected radiation are still reliably received by the vehicle parts.
  • FIG. 2b shows the transmission arrangement for single tires.
  • the reference numerals of Fig. 2a are. taken over there for the same parts.
  • the transmitter for single tires is designated 5b.
  • the rest. Parts correspond to Fig. 2a.
  • the transmission arrangement will be explained in more detail with reference to FIG. 3.
  • the infrared transmission diode 10 is driven by an amplifier 11 from the AND gate 12, the oscillator 13 in pulses.
  • the pulse coaster 14 has the effect that a pulse is sent to the infrared diode 10 only at larger time intervals, for example 30 seconds. This has the advantage that the energy consumption for the amplifier 11 and the diode 10 is kept very low, so that the entire transmitter arrangement can be operated from a small battery. This will be explained in more detail later with reference to FIG. 4.
  • the arrangement can be made that when the air pressure falls below the permissible operating voltage for the oscillator is interrupted, as indicated by contact 15.
  • the signal emitted by the infrared diode thus consists of a pulse train 16, which is emitted, for example, every 20 seconds.
  • the pulses are modulated with the frequency of the oscillator 13 itself.
  • the pulse train 16 lasts e.g. just a few milliseconds. In this way it is possible to send out a separate identifier for each axle, wheel or tire.
  • the power supply of the transmitter in connection with the signaling for each tire will be described below with reference to FIG. 4.
  • the infrared transmitter diode is again designated by 10 in FIG. 4.
  • the transmitter 17 corresponds to the arrangement according to FIG. 3.
  • contacts from 18a and 18b are provided, the actuation of which by an air pressure sensor changes the information content of the transmitter, so that the information sent shows which tire has fallen below its permissible air pressure Has.
  • the frequencies of the oscillator 13 in Fig. 3 to be changed, or it is possible to change the ratio of the impulse reducer 14 in Fig. 3.
  • the transmitter 17 is supplied with power via the switch-off device 19 - which will be explained later with reference to FIG. 5.
  • the additional energy source 20 will be discussed later received.
  • the capacitor 22, which can be designed as an electrolytic capacitor with a capacitance of, for example, about 1000 ⁇ F, serves as an energy store for briefly delivering the supply current required for the transmission of a series of pulses for the transmitter 17.
  • the battery 21 provides the diode 26 for recharging the Capacitor 22, unless the capacitor 22 can be recharged from the additional energy source 20 via the diode 24.
  • Resistors 25 and 27 serve as current limiting resistors.
  • the arrangement described with reference to FIG. 4 thus enables commissioning after a long standstill of the vehicle, even when the battery 21 is completely discharged, as soon as the capacitor 22 can be charged from the additional energy source.
  • a certain excess amount of electricity from the source 20 then allows the battery 21 to be recharged during longer operation, so that the battery 21 ensures that the system is effective during breaks in operation.
  • monitoring can be maintained during operation, even if the battery 21 is defective, provided that enough energy is supplied from the additional power source that the capacitor 22 can be recharged again and again.
  • the additional energy source 20 can consist of a rotary transformer which transmits alternating current from the vehicle electrical system, which is later rectified, to the transmission system rotating with the wheel. It is also possible to recharge the battery 21 with the aid of a solar cell or a power generator that generates energy through the wheel revolutions.
  • FIG. 5 shows the shutdown device designated 19 in FIG. 4.
  • This switch-off device has the task of interrupting the power supply to the transmitter 17 in order to protect the battery 21, so that the battery is not unnecessarily loaded during longer breaks in operation.
  • the switch-off device 19 contains a switching transistor 30 which is switched on.
  • a monostable multivibrator 31 (monoflop) is controlled with a large time constant.
  • the timer 34, 35 of the monostable multivibrator 31 is, for example, dimensioned such that, after supplying a trigger pulse via the closed switch 32, the transistor 30 remains controlled for ten minutes, so that short pauses, for example at traffic lights, are bridged with certainty.
  • the power supply to the transmitter 17 is interrupted in the event of longer stops, unless the contact 32 is closed by a movable mass 33 as a result of the wheel rotation and a trigger pulse is sent to the monostable trigger circuit 31 via the RC element 36, 37 to control the Switching transistor 30 is supplied.
  • the tire pressure monitoring device during shorter stays, e.g. continue working on a railway barrier, traffic lights or the like.
  • a certain time which can range from several minutes to an hour, the battery is automatically switched off.
  • the automatic monitoring starts again after the first wheel revolution, since a moving trigger 33 controls the switching transistor 30 in a permeable manner. It is therefore also possible to operate the monitoring device over a longer period of time without the additional energy source 20 with the aid of a dry battery, since a current load is surely suppressed during longer downtimes.
  • Fig. 6 the transmission arrangement to be attached to the wheel hub is shown as an exemplary embodiment.
  • This is a transmission device for double or twin tires, as it is denoted by 5a in FIG. 1.
  • the same symbols are provided for the same parts in FIGS. 1 and 2a.
  • 6 is mounted on the base plate 40 which can be attached to the wheel hub or the wheel bearing housing, a pressure sensor housing 45 for each tire, which carries the pressure sensor 44, the hose connection 46 to the respective tire and the filler neck 9 for air pressure control and air refilling.
  • the battery housing 41 is mounted on the base plate 40, which can expediently be opened easily if the arrangement is to work with a dry battery, which must be replaced from time to time.
  • the transmitter housing 42 on which a connection for the infrared source 43 is arranged, serves to receive the transmitter.
  • the infrared source itself is designated 10 and, as shown in Fig. 2a, appropriately attached to the inside of the rim under the car, so that it can also act on the receiver 11 (see Fig. 2a) when the wheels are rotating, for example at the rear axle can be attached to the differential case.
  • the arrangement according to the invention has the advantage that the filler neck 9 are easily accessible for checking and refilling the air, and that the transmitter and its battery are located in an easily accessible place on the motor vehicle.
  • a protective cap made of steel can be provided, which is attached over the base plate 40 and the housings arranged thereon.
  • the arrangement is expediently such that the valve 7 on the tire closes even when a hose 6 is torn off, so that the air pressure cannot be lost as a result.
  • the tire pressure monitoring device indicates damage since the pressure sensor 44 reports a pressure drop.
  • the receivers 11 are connected to the control device 50 in the driver's cab of the vehicle via lines 11a.
  • the receivers 11 can be provided with a compressed air connection 11c, which ensures a constant air flow through the entrance pupil 11b to the outside.
  • the control device 50 contains a light indicator 51 for the alarm, which can be connected to an acoustic signal generator. Further signal indicator lamps 52 are also provided for each tire.
  • the arrangement has the following effect, for example: when the vehicle is started, the warning indicator 51 lights up after a certain delay. This allows the functioning of this display device to be checked. After a further time delay, the display 51 goes out and the indicator lamps 52 light up to indicate that the transmission devices are functioning properly. If a tire is defective, the one assigned to the respective tire goes out. The display device 52 and the main control display 51 light up. An acoustic alarm signal can also be triggered. The triggering of the acoustic alarm signal is expediently delayed by a further delay device by a few seconds, so that the unnecessary acoustic signal is avoided during commissioning and a warning can only be given in critical conditions.

Abstract

1. A tyre pressure monitoring device for road vehicles (1) having a transmitter (5a, 5b) arranged on the wheel and/or axle (3, 4) for radiation of a signal dependent upon the tyre pressure from the transmitter (5a, 5b) arranged on the wheel to a receiver (11) on the vehicle frame or the like, the radiation being modulated in dependence upon the tyre pressure, characterised in that the transmitting device (5a, 5b, 17) is equipped with an infra-red source (10), in particular an infra-red luminescent diode, and during travel constantly emits signals to indicate any pressure drop in one or more tyres by modifying the signal content and/or interrupting the signal emission, for which purpose the infra-red source (10) is fixed at a location of the wheel in little danger of pollution, such as inside the rim or at a point of high peripheral speed, and that the receiver (11) on the vehicle frame is protected against pollution in that the input diaphragm for the infra-red radiation is protected against penetration of contamination.

Description

Die Erfindung betrifft eine Einrichtung zur Reifendrucküberwachung mit einem Sender an der Achse des Kraftfahrzeuges für die drahtlose Übertragung eines vom Reifendruck abhängigen Signales auf einen Empfänger am Fahrzeugrahmen.The invention relates to a device for tire pressure monitoring with a transmitter on the axle of the motor vehicle for the wireless transmission of a signal dependent on the tire pressure to a receiver on the vehicle frame.

Derartige Einrichtungen sind bekannt. Die bekannten Einrichtungen benutzen in der Regel Hochfrequenzsender, die von einem Reifendruckfühler gesteuert werden und auf einen im Fahrzeug angebrachten Empfänger wirken, der eine Anzeige am Armaturenbrett auslöst sobald ein unzulässiger Druckabfall eintritt. Die bekannten Einrichtungen mit drahtloser Hochfrequenzübertragung haben den Nachteil, daß nur sehr geringe Hochfrequenzenergien benutzt werden dürfen, so daß die Hochfrequenzenergie von in der Nachbarschaft befindlichen Störern wie z.B. Zündstörungen anderer Fahrzeuge, elektrische Bahnen und dergl. die Funktionsweise stark beeinträchtigen können. Auch können durch starke elektrische Entladungen Sender und Empfänger zerstört werden.Such devices are known. The known devices generally use radio frequency transmitters, which are controlled by a tire pressure sensor and act on a receiver mounted in the vehicle, which triggers a display on the dashboard as soon as an impermissible pressure drop occurs. The known devices with wireless radio frequency transmission have the disadvantage that only very low radio frequency energies may be used, so that the radio frequency energy from interferers located in the vicinity, such as ignition disturbances of other vehicles, electrical trains and the like. The radio can severely impair Strong electrical discharges can also destroy the transmitter and receiver.

Die Erfindung geht von der Erkenntnis aus, daß sich mit Infrarotübertragung eine drahtlose Verbindung herstellen läßt, die auch bei geringer Sendeenergie nicht störungsanfällig ist, und durch andere Nachrichtenübertragungen und Zündstörungen nicht gestört werden kann, bzw. diese selbst auch nicht stört.The invention is based on the knowledge that a wireless connection can be established with infrared transmission, which is not susceptible to interference even with low transmission energy, and cannot be disturbed by other message transmissions and ignition disturbances, or does not disturb it itself.

Es wurde gefunden, daß die Infrarotübertragung auch in einem weiten Raumwinkel möglich ist und durch Verschmutzung nur in sehr geringem Maße gestört wird. Durch ein sich selbst überwachendes System wird der Fahrer auf die gegebenenfalls notwendige Reinigung hingewiesen, die dann auch gleichzeitig bei den Rückleuchten des Fahrzeuges-erforderlich wird.It has been found that infrared transmission is also possible in a wide solid angle and is only disturbed by contamination to a very small extent. A self-monitoring system notifies the driver of any cleaning that may be necessary, which is then also required for the rear lights of the vehicle.

Die Einrichtung nach der.Erfindung zeichnet sich dadurch aus, daß die Sendeeinrichtung mit einer Infrarotquelle insbesondere Infrarotleuchtdiode ausgestattet ist, und daß der Sender ein vom Druck eines oder mehrerer Reifen abhängiges moduliertes Signal abgibt.The device according to the invention is characterized in that the transmitting device is equipped with an infrared source, in particular an infrared light-emitting diode, and in that the transmitter emits a modulated signal which is dependent on the pressure of one or more tires.

Die Erfindung und weitere Einzelheiten sind nachstehend anhand der in den Zeichnungen dargestellten Ausführungsbeispiele näher erläutert.The invention and further details are explained below with reference to the embodiments shown in the drawings.

Es zeigen:

  • Fig. 1 einen mit der erfindungsgemäßen Einrichtung ausgestatteten Lastkraftwagen
  • Fig. 2a in schematischer Weise die Übertragung vom und 2b Sender auf den Empfänger bei Doppel- und Einfachbereifung .
  • Fig. 3 zeigt schematisch in vereinfachter Weise den Sender.
  • Fig. 4 zeigt in vereinfachter Darstellung die Stromversorgung und Ansteuerung des Senders.
  • Fig. 5 zeigt die Abschalteinrichtung zur Abschaltung des Senders bei Stillstand des Fahrzeuges.
  • Fig. 6 zeigt die auf den Radnaben anzubringenden Drückfühler mit dem Sender- und Batteriegehäuse.
  • Fig. 7 zeigt als Ausführungsbeispiel der Erfindung eine Anzeigeeinrichtung für das Armaturenbrett eines Lastzuges sowie schematisch die daran anzuschließenden Empfänger.
Show it:
  • Fig. 1 a truck equipped with the device according to the invention
  • Fig. 2a shows schematically the transmission from and 2b transmitter to the receiver with double and single tires.
  • Fig. 3 shows schematically the transmitter in a simplified manner.
  • Fig. 4 shows a simplified representation of the power supply and control of the transmitter.
  • 5 shows the switch-off device for switching off the transmitter when the vehicle is at a standstill.
  • Fig. 6 shows the pressure sensor to be attached to the wheel hubs with the transmitter and battery housing.
  • 7 shows, as an exemplary embodiment of the invention, a display device for the dashboard of a truck and schematically the receivers to be connected to it.

In Fig. 1 ist ein Lastwagen 1 dargestellt, an dessen Armaturenbrett eine überwachungseinrichtung 2 für den Reifendruck angebracht ist. Diese wird später näher beschrieben. An den Radnaben 3, 4 bzw. den dort angebrachten Lagerdeckeln oder dergl. sind die Sendeeinrichtungen 5a und 5b für die Überwachungssignale angebracht. Mit 5a ist eine Sendeeinrichtung für Doppelbereifung,mit 5b eine Sendeeinrichtung für Einfachbereifung bezeichnet.1 shows a truck 1, on the dashboard of which a monitoring device 2 for the tire pressure is attached. This will be described later. The transmission devices 5a and 5b for the monitoring signals are attached to the wheel hubs 3, 4 or the bearing caps attached there or the like. 5a is a transmitter for double tires, 5b is a transmitter for single tires.

In Fig. 2a ist schematisch die Überwachungsanordnung für ein doppelbereiftes Rad dargestellt. Die Sendeeinrichtung 5a, die später noch näher erläutert wird, besitzt Schlauchanschlüsse 6 zu den Ventilen 7 der Reifen 8. Die Einrichtung 5a besitzt Füllstutzen 9 zum Prüfen und Nachfüllen der Reifenluft, und ferner enthält die Einrichtung 5a den Sender, welcher die Überwachungssignale mittels einer Infrarotsendequelle 10 an den Empfänger 11 sendet. Als Infrarotsendequelle 10 dient zweckmäßig eine Infrarothalbleiterdiode, wie sie für Fernsehempfänger, Fernbedienungen handelsüblich ist.In Fig. 2a, the monitoring arrangement for a double-tire wheel is shown schematically. The transmitting device 5a, which will be explained in more detail later, has hose connections 6 to the valves 7 of the tires 8. The device 5a has filler neck 9 for checking and refilling the tire air, and furthermore the device 5a contains the transmitter, which transmits the monitoring signals by means of an infrared transmission source 10 sends to the receiver 11. An infrared semiconductor diode, as is commercially available for television receivers and remote controls, is expediently used as the infrared transmission source 10.

Der Empfänger 11 enthält eine infrarotempfindliche Fotodiode, deren Empfindlichkeit und Empfangsraumwinkel der- art bemessen wird, daß sowohl die direkte Strahlung der Quelle 10 als auch die reflektierte Strahlung von den Fahrzeugteilen noch sicher empfangen wird.The receiver 11 contains an infrared-sensitive photodiode, the sensitivity and reception solid angle of which is dimensioned such that both the direct radiation from the source 10 and the reflected radiation are still reliably received by the vehicle parts.

In Fig. 2b ist die Übertragungsanordnung für Einfachbereifung dargestellt. Die Bezugszeichen von Fig. 2a sind. dort für gleiche Teile übernommen. Die Sendeeinrichtung für Einfachbereifung ist mit 5b bezeichnet. Alle übrigen. Teile entsprechen Fig. 2a.2b shows the transmission arrangement for single tires. The reference numerals of Fig. 2a are. taken over there for the same parts. The transmitter for single tires is designated 5b. The rest. Parts correspond to Fig. 2a.

Anhand von Fig. 3 sei die Sendeanordnung näher erläutert. Die Infrarotsendediode 10 wird über einen Verstärker 11 von dem UND-Gatter 12 aus,dem Oszillator 13 impulsweise angesteuert. Der Impulsuntersetzer 14 bewirkt, daß nur in größeren Zeitabständen, z.B. 30 Sekunden, ein Impuls an die Infrarotdiode 10 gesendet wird. Dies hat den Vorteil, daß der Energieverbrauch für den Verstärker 11 und die Diode 10 sehr gering gehalten wird, so daß die ganze Sendeanordnung aus einer kleinen Batterie betrieben werden kann. Dies wird näher später noch anhand von Fig. 4 erläutert. Die Anordnung kann so getroffen werden, daß bei Unterschreiten des zulässigen Luftdruckes die Betriebsspannung für den Oszillator unterbrochen wird, wie dies durch den Kontakt 15 angedeutet ist.The transmission arrangement will be explained in more detail with reference to FIG. 3. The infrared transmission diode 10 is driven by an amplifier 11 from the AND gate 12, the oscillator 13 in pulses. The pulse coaster 14 has the effect that a pulse is sent to the infrared diode 10 only at larger time intervals, for example 30 seconds. This has the advantage that the energy consumption for the amplifier 11 and the diode 10 is kept very low, so that the entire transmitter arrangement can be operated from a small battery. This will be explained in more detail later with reference to FIG. 4. The arrangement can be made that when the air pressure falls below the permissible operating voltage for the oscillator is interrupted, as indicated by contact 15.

Das von der Infrarotdiode ausgesendete Signal besteht also in einer Impulsfolge 16, die beispielsweise im Abstand von 20 Sekunden ausgesendet wird. Dabei sind die Impulse mit der Frequenz des Oszillators 13 selbst moduliert. Die Impulsfolge 16 dauert z.B. nur wenige Millisekunden. Auf diese Weise ist es möglich, für jede Achse bzw. jedes Rad oder jeden Reifen eine eigene Kennung auszusenden.The signal emitted by the infrared diode thus consists of a pulse train 16, which is emitted, for example, every 20 seconds. The pulses are modulated with the frequency of the oscillator 13 itself. The pulse train 16 lasts e.g. just a few milliseconds. In this way it is possible to send out a separate identifier for each axle, wheel or tire.

Anhand von Fig. 4 sei nachstehend die Stromversorgung des Senders in Verbindung mit der Signalisierung für jeden Reifen beschreiben. Die Infrarotsendediode ist in Fig. 4 wieder mit 10 bezeichnet. Der Sender 17 entspricht der Anordnung nach Fig. 3. Zur Feststellung eines defekten Reifens sind Kontakte ab 18a und 18b vorgesehen, deren Betätigung durch einen Luftdruckfühler den Informationsinhalt des Senders verändert, so daß aus der gesendeten Information erkennbar wird, welcher Reifen seinen zulässigen Luftdruck unterschritten hat. Mit Hilfe der Kontakte 18a und'18b kann z.B. die Frequenz des Oszillators 13 in Fig. 3 geändert werden, oder es ist möglich, das Verhältnis des Impulsuntersetzers 14 in Fig. 3 umzuschalten. Da mehrere Möglichkeiten zur Veränderung des Informationsinhaltes bestehen, ist es möglich, nicht nur den Reifen, welcher Luft verliert anzuzeigen, sondern es ist auch möglich, Luftüberdruck oder andere Erscheinungen zusätzlich zu melden. Die Stromversorgung des Senders 17 erfolgt über die Abschalteinrichtung 19 - welche später anhand von Fig. 5 noch erläutert wird -.aus der Batterie 21. Die Batterie 21 kann als aufladbarer Akkumulator ausgebildet sein und von einer zusätzlichen Energiequelle 20 Ladestrom erhalten. Auf die zusätzliche Energiequelle 20 wird später noch gesondert eingegangen. Der Kondensator 22, der als Elektrolytkondensator mit einer Kapazität von z.B. etwa 1000 µF ausgebildet sein kann, dient als Energiespeicher zur kurzzeitigen Abgabe des für die Sendung einer Impulsreihe erforderlichen Speisestroms für den Sender 17. Die Batterie 21 sorgt über.die Diode 26 zur Nachladung des Kondensators 22, sofern nicht von der zusätzlichen Energiequelle 20 über die Diode 24 der Kondensator 22 nachgeladen werden kann. Die Widerstände 25 und 27 dienen als Strombegrenzungswiderstände. Die anhand von Fig. 4 beschriebene Anordnung ermöglicht also auch bei völlig entladener Batterie 21 eine Inbetriebnahme nach langer Stillstandszeit des Fahrzeuges, sobald aus der zusätzlichen Energiequelle der Kondensator 22 aufgeladen werden kann. Eine gewisse überschüssige Strommenge aus der Quelle 20 erlaubt dann bei längerem Betrieb das Nachladen der Batterie 21, so daß während Betriebspausen die Batterie 21 eine Wirksamkeit des Systemes sicherstellt. Andererseits kann während des Betriebes selbst bei Defekt der Batterie 21 die Überwachung erhalten bleiben, sofern aus der zusätzlichen Stromquelle soviel Energie geliefert wird, daß der Kondensator 22 immer wieder nachgeladen werden kann. Die zusätzliche Energiequelle 20 kann aus einem Drehtransformator bestehen, welcher aus dem Bordnetz des Fahrzeuges Wechselstrom, der später gleichgerichtet wird, auf das sich mit dem Rad mitdrehende Sendesystem überträgt. Ferner ist es möglich, mit Hilfe einer Solarzelle oder eines Stromerzeugers, der durch die Radumdrehungen Energie erzeugt, die Batterie 21 nachzuladen.The power supply of the transmitter in connection with the signaling for each tire will be described below with reference to FIG. 4. The infrared transmitter diode is again designated by 10 in FIG. 4. The transmitter 17 corresponds to the arrangement according to FIG. 3. To determine a defective tire, contacts from 18a and 18b are provided, the actuation of which by an air pressure sensor changes the information content of the transmitter, so that the information sent shows which tire has fallen below its permissible air pressure Has. With the help of the contacts 18a and '18b for example, the frequency of the oscillator 13 in Fig. 3 to be changed, or it is possible to change the ratio of the impulse reducer 14 in Fig. 3. Since there are several options for changing the information content, it is possible not only to display the tire which is losing air, but it is also possible to additionally report air pressure or other phenomena. The transmitter 17 is supplied with power via the switch-off device 19 - which will be explained later with reference to FIG. 5. The additional energy source 20 will be discussed later received. The capacitor 22, which can be designed as an electrolytic capacitor with a capacitance of, for example, about 1000 μF, serves as an energy store for briefly delivering the supply current required for the transmission of a series of pulses for the transmitter 17. The battery 21 provides the diode 26 for recharging the Capacitor 22, unless the capacitor 22 can be recharged from the additional energy source 20 via the diode 24. Resistors 25 and 27 serve as current limiting resistors. The arrangement described with reference to FIG. 4 thus enables commissioning after a long standstill of the vehicle, even when the battery 21 is completely discharged, as soon as the capacitor 22 can be charged from the additional energy source. A certain excess amount of electricity from the source 20 then allows the battery 21 to be recharged during longer operation, so that the battery 21 ensures that the system is effective during breaks in operation. On the other hand, monitoring can be maintained during operation, even if the battery 21 is defective, provided that enough energy is supplied from the additional power source that the capacitor 22 can be recharged again and again. The additional energy source 20 can consist of a rotary transformer which transmits alternating current from the vehicle electrical system, which is later rectified, to the transmission system rotating with the wheel. It is also possible to recharge the battery 21 with the aid of a solar cell or a power generator that generates energy through the wheel revolutions.

In Fig. 5 ist die in Fig. 4 mit 19 bezeichnete Abschalteinrichtung dargestellt. Diese Abschalteinrichtung hat die Aufgabe, zur Schonung der Batterie 21 die Stromzufuhr zum Sender 17 zu unterbrechen, damit bei längeren Betriebspausen die Batterie nicht unnötig belastet wird.5 shows the shutdown device designated 19 in FIG. 4. This switch-off device has the task of interrupting the power supply to the transmitter 17 in order to protect the battery 21, so that the battery is not unnecessarily loaded during longer breaks in operation.

Die Abschalteinrichtung 19 enthält einen Schalttransistor 30, der durch. eine monostabile Kippschaltung 31 (Monoflop) mit großer Zeitkonstante gesteuert wird. Das Zeitglied 34, 35 der monostabilen Kippschaltung 31 ist beispielsweise derart bemessen, daß nach Zuführung eines Trigg erimpulses über den geschlossenen Schalter 32 der Transistor 30 für zehn Minuten durchlässig gesteuert bleibt, so daß kurze Haltepausen, beispielsweise an Ampeln mit Sicherheit überbrückt werden. Andererseits wird bei längeren Haltepausen die Stromversorgung zum Sender 17 unterbrochen, sofern nicht durch eine bewegliche Masse 33 zur Folge der Radumdrehung der-Kontakt 32 geschlossen wird und über das RC-Glied 36, 37 einen Trigg.erimpuls an die monostabile Kippschaltung 31 zur Ansteuerung des Schalttransistors 30 geliefert wird. Auf diese Weise ist sichergestellt,.daß die Reifendrucküberwachungseinrichtung bei kürzeren Aufenthalten, z.B. an einer Bahnschranke, Verkehrsampel oder dergl. weiterarbeitet. Nach einer gewissen Zeit, die von mehreren Minuten bis zu einer Stunde betragen kann, wird die Batterie selbsttätig abgeschaltet. Die selbsttätige Überwachung setzt jedoch bereits nach der ersten Radumdrehung wieder ein, da durch die bewegliche Masse 33 ein.Triggerimpuls den Schalttransistor 30 durchlässig steuert. Es ist also möglich auch ohne die zusätzliche Energiequelle 20 mit Hilfe einer Trockenbatterie über längere Zeit die Überwachungseinrichtung zu betreiben, da während längerer Stillstandszeiten mit Sicherheit eine Strombelastung unterdrückt wird.The switch-off device 19 contains a switching transistor 30 which is switched on. a monostable multivibrator 31 (monoflop) is controlled with a large time constant. The timer 34, 35 of the monostable multivibrator 31 is, for example, dimensioned such that, after supplying a trigger pulse via the closed switch 32, the transistor 30 remains controlled for ten minutes, so that short pauses, for example at traffic lights, are bridged with certainty. On the other hand, the power supply to the transmitter 17 is interrupted in the event of longer stops, unless the contact 32 is closed by a movable mass 33 as a result of the wheel rotation and a trigger pulse is sent to the monostable trigger circuit 31 via the RC element 36, 37 to control the Switching transistor 30 is supplied. In this way it is ensured that the tire pressure monitoring device during shorter stays, e.g. continue working on a railway barrier, traffic lights or the like. After a certain time, which can range from several minutes to an hour, the battery is automatically switched off. However, the automatic monitoring starts again after the first wheel revolution, since a moving trigger 33 controls the switching transistor 30 in a permeable manner. It is therefore also possible to operate the monitoring device over a longer period of time without the additional energy source 20 with the aid of a dry battery, since a current load is surely suppressed during longer downtimes.

In Fig. 6 ist als Ausführungsbeispiel die an der Radnabe anzubringende Sendeanordnung dargestellt. Es handelt sich hier um eine Sendeeinrichtung für Doppel- oder Zwillingsbereifung, wie sie in Fig. 1 mit 5a bezeichnet ist. Bei den verwendeten Bezugszeichen sind gleiche Zeichen für die gleichen Teile in den Fig. 1 und 2a vorgesehen. In Fig. 6 ist auf der Grundplatte 40 die an der Radnabe oder dem Radlagergehäuse befestigt sein kann, für jeden Reifen ein Druckfühlergehäuse 45 angebracht, welches den Druckfühler 44, den Schlauchanschluß 46 zum jeweiligen Reifen und den Füllstutzen 9 zur Luftdruckkontrolle und Luftnachfüllung trägt. Ferner ist auf der Grundplatte 40 das Batteriegehäuse 41 angebracht, das zweckmäßig leicht geöffnet werden kann, falls die Anordnung mit einer Trockenbatterie arbeiten soll, die von Zeit zu Zeit ausgetauscht werden muß. Zur Aufnahme des Senders dient das Sendergehäuse 42, an dem ein Anshluß für die Infrarotquelle 43 angeordnet ist. Die Infrarotquelle selbst ist mit 10 bezeichnet und wie in Fig. 2a dargestellt, zweckmäßig auf der Innenseite der Felge unter dem Wagen angebracht, so daß sie auch bei rotierenden Rädern auf den Empfänger 11 (s. Fig. 2a) einwirken kann, der beispielsweise bei der Hinterachse am Differentialgehäuse befestigt werden kann. Die Anordnung gemäß der Erfindung hat den Vorteil, daß die Füllstutzen 9 zur Prüfung und Nachfüllung der Luft leicht zugänglich sind, und daß sich der Sender zusammen mit seiner Batterie an leicht zugänglicher Stelle des Kraftfahrzeuges befindet. Zum Schutz gegen Beschädigung kann eine Schutzkappe aus Stahl vorgesehen werden, welche über der Grundplatte 40 und den darauf angeordneten Gehäusen angebracht ist. Zweckmäßig wird die Anordnung derart getroffen, daß auch bei Abreißen eines Schlauches 6 das Ventil 7 am Reifen schließt, so daß dadurch der Luftdruck nicht verloren gehen kann. Andererseits weist die Reifendrucküberwachungseinrichtung auf eine Beschädigung hin, da der Druckfühler 44 dabei einen Druckabfall meldet.In Fig. 6, the transmission arrangement to be attached to the wheel hub is shown as an exemplary embodiment. This is a transmission device for double or twin tires, as it is denoted by 5a in FIG. 1. In the case of the reference symbols used, the same symbols are provided for the same parts in FIGS. 1 and 2a. 6 is mounted on the base plate 40 which can be attached to the wheel hub or the wheel bearing housing, a pressure sensor housing 45 for each tire, which carries the pressure sensor 44, the hose connection 46 to the respective tire and the filler neck 9 for air pressure control and air refilling. Furthermore, the battery housing 41 is mounted on the base plate 40, which can expediently be opened easily if the arrangement is to work with a dry battery, which must be replaced from time to time. The transmitter housing 42, on which a connection for the infrared source 43 is arranged, serves to receive the transmitter. The infrared source itself is designated 10 and, as shown in Fig. 2a, appropriately attached to the inside of the rim under the car, so that it can also act on the receiver 11 (see Fig. 2a) when the wheels are rotating, for example at the rear axle can be attached to the differential case. The arrangement according to the invention has the advantage that the filler neck 9 are easily accessible for checking and refilling the air, and that the transmitter and its battery are located in an easily accessible place on the motor vehicle. To protect against damage, a protective cap made of steel can be provided, which is attached over the base plate 40 and the housings arranged thereon. The arrangement is expediently such that the valve 7 on the tire closes even when a hose 6 is torn off, so that the air pressure cannot be lost as a result. On the other hand, the tire pressure monitoring device indicates damage since the pressure sensor 44 reports a pressure drop.

In Fig. 7 ist schematisch ein Ausführungsbeispiel der Gesamteinrichtung dargestellt. Die Empfänger 11 sind über Leitungen 11a mit dem Kontrollgerät 50 im Führerstand des Fahrzeuges verbunden. Um die Verschmutzung der Eintrittspupille 11b, die nur wenige Millimeter Durchmesser hat zu vermeiden, können die Empfänger 11 mit einem Druckluftanschluß 11c versehen sein, der einen ständigen Luftstrom durch die Eintrittspupille 11b nach außen gewährleistet.7 schematically shows an exemplary embodiment of the overall device. The receivers 11 are connected to the control device 50 in the driver's cab of the vehicle via lines 11a. In order to avoid contamination of the entrance pupil 11b, which is only a few millimeters in diameter, the receivers 11 can be provided with a compressed air connection 11c, which ensures a constant air flow through the entrance pupil 11b to the outside.

Das Kontrollgerät 50 enthält eine Leuchtanzeige 51 für den Alarmfall, die mit einem akustischen Signalgeber verbunden sein kann. Ferner sind für jeden Reifen weitere Signalanzeigelampen 52 vorgesehen. Die Anordnung hat beispielsweise folgende Wirkung: bei Inbetriebsetzen des Fahrzeuges leuchtet gegebenenfalls nach einer gewissen Verzögerungszeit die Warnanzeige 51 auf. Dadurch läßt sich das Funktionieren dieser Anzeigeeinrichtung kontrollieren. Nach einer weiteren Zeitverzögerung erlischt die Anzeige 51 und die Anzeigelampen 52 leuchten auf, um das ordnungsgemäße Funktionieren der Übertragungseinrichtungen anzuzeigen. Bei Defekt eines Reifens verlischt die dem jeweiligen Reifen zugeordnete. Anzeigeeinrichtung 52 und die Hauptkontrollanzeige 51 leuchtet auf. Dabei kann auch ein akustisches Alarmsignal ausgelöst werden. Die Auslösung des akustischen Alarmsignals wird zweckmäßig durch eine weitere Verzögeiungseinrichtung um einige Sekunden verzögert, damit bei Inbetriebsetzung die unnötige akustische Signalgabe vermieden wird und erst bei kritischen Zuständen eine Warnung erfolgen kann.The control device 50 contains a light indicator 51 for the alarm, which can be connected to an acoustic signal generator. Further signal indicator lamps 52 are also provided for each tire. The arrangement has the following effect, for example: when the vehicle is started, the warning indicator 51 lights up after a certain delay. This allows the functioning of this display device to be checked. After a further time delay, the display 51 goes out and the indicator lamps 52 light up to indicate that the transmission devices are functioning properly. If a tire is defective, the one assigned to the respective tire goes out. The display device 52 and the main control display 51 light up. An acoustic alarm signal can also be triggered. The triggering of the acoustic alarm signal is expediently delayed by a further delay device by a few seconds, so that the unnecessary acoustic signal is avoided during commissioning and a warning can only be given in critical conditions.

Claims (13)

1. Einrichtung zur Reifendrucküberwachung bei Kraftfahrzeugen mit einem am Rad- und/oder der Achse angeordneten Sender für die drahtlose Übertragung eines vom Reifendruck abhängigen Signales auf einen Empfänger am Fahrzeugrahmen oder dergl., dadurch gekennzeichnet , daß die Sendeeinrichtung (5a,5b,17) mit einer Infrarotquelle (10) insbesondere Infratorleuchtdiode ausgestattet ist, und daß der Sender (5a,5b,17) ein vom Druck eines oder mehrerer Reifen abhängiges moduliertes Signal abgibt.1. Device for tire pressure monitoring in motor vehicles with a transmitter arranged on the wheel and / or the axle for the wireless transmission of a signal dependent on the tire pressure to a receiver on the vehicle frame or the like, characterized in that the transmitting device (5a, 5b, 17) is equipped with an infrared source (10), in particular an infrared light-emitting diode, and that the transmitter (5a, 5b, 17) emits a modulated signal which is dependent on the pressure of one or more tires. 2. Einrichtung nach Anspruch 1, dadurch ge kennzeichnet , daß die Sendeeinrichtung (5a,5b,17) ständig während des Fahrbetriebes Signale abgibt und den Druckabfall in einem Reifen durch Veränderung des Signalinhaltes und/oder Unterbrechung der Signalabgabe meldet.2. Device according to claim 1, characterized in that the transmitting device (5a, 5b, 17) constantly emits signals during driving and reports the pressure drop in a tire by changing the signal content and / or interrupting the signaling. 3. Einrichtung nach Anspruch 1 oder 2, dadurch gekennzeichnet , daß zur Aufladung der Batterie .(21) des Senders (17) und/oder zur direkten Speisung des Senders (17) Mittel (20) zur Energieübertragung von Wagenrahmen auf die Senderanordnung (5a,5b) vorgesehen sind, die beispielsweise aus einem Drehtransformator oder einer Induktionsschleife bestehen.3. Device according to claim 1 or 2, characterized in that means for charging the battery (21) of the transmitter (17) and / or for direct feeding of the transmitter (17) means (20) for energy transmission from the trolley frame to the transmitter arrangement (5a , 5b) are provided, which consist, for example, of a rotary transformer or an induction loop. 4. Einrichtung nach Anspruch 3, dadurch gekennzeichnet, daß als Energiequelle für den Sender bzw. zum Aufladen der Batterie ein von Rotation der Räder betriebener Generator vorgesehen ist.4. Device according to claim 3, characterized in that a generator operated by rotation of the wheels is provided as the energy source for the transmitter or for charging the battery. 5. Einrichtung nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, daß parallel zu der.den Sender (17) speisenden Batterie (21) ein Kondensator (22) geschaltet wird, der eine so große Kapazität besitzt, daß die gespeicherte Energie ausreicht, den Sender so lange zu speisen, daß dieser mindestens eine vollständige Signalimpulsfolge aussenden kann.5. Device according to one of the preceding claims, characterized in that a capacitor (22) is connected in parallel with the battery (21) which feeds the transmitter (17) and has a capacitor which is so large that the stored energy is sufficient, the transmitter to feed so long that it can emit at least one complete signal pulse train. 6. Einrichtung nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet , daß der Sender (17) ständig - zumindest während des Wagenbetriebes - Signale abgibt, die der Funktionsüberwachung dienen.6. Device according to one of the preceding claims, characterized in that the transmitter (17) constantly - at least during carriage operation - emits signals which serve for function monitoring. 7. Einrichtung nach einem der vorhergehenden. Ansprüche, dadurch gekennzeichnet , daß der Sender (17) zumindest für das Überwachungssignal Impulse oder Impulsreihen mit großem Impuls/Außenverhältnis abgibt, so daß der Energieverbrauch gering gehalten wird.7. Setup according to one of the preceding. Claims, characterized in that the transmitter (17) emits pulses or pulse series with a large pulse / external ratio at least for the monitoring signal, so that the energy consumption is kept low. 8. Einrichtung nach einem der Ansprüche 1 bis 7, dadurch gekennzeichnet , daß die Infrarotquelle (10) an einem Ort geringer Verschmutzungsgefahr des Rades, beispielsweise auf der Innenseite der Felge, gegebenenfalls an einer Stelle hoher Umfangsgeschwindigkeit angebracht ist, und daß der Empfänger (11) am Fahrgestell gegebenenfalls dadurch gegen Verschmutzung gesichert ist, daß die Eintrittsblende für die Infrarotstrahlung durch einen Luftstrom gegen das Eindringen von Vershmutzung gesichert ist.8. Device according to one of claims 1 to 7, characterized in that the infrared source (10) at a location with low risk of contamination of the wheel, for example on the inside of the rim, is optionally attached to a location of high peripheral speed, and that the receiver (11 ) is secured against contamination on the chassis, if necessary, in that the inlet aperture for the infrared radiation is secured against the ingress of contamination by an air stream. 9. Einrichtung nach einem der Ansprüche 1 bis 8, dadurch gekennzeichnet, daß sich die Überwachungseinrichtung bei längerem Stillstand des Fahrzeuges selbsttätig ausschaltet und bei erneuter Inbetriebsetzung selbsttätig wieder eingeschaltet wird.9. Device according to one of claims 1 to 8, characterized in that the monitoring device switches off automatically when the vehicle is stationary for a longer period of time and is automatically switched on again when it is started up again. 10. Einrichtung nach Anspruch 9, dadurch gekennzeichnet, daß ein lageabhängiger bzw. massebetätigter Schalter in der am Rad befestigten Sendeeinrichtung (5a,5b) angeordnet ist und ein Schaltglied (30,31) mit großer Zeitkonstante ansteuert, sobald das betreffende Rad in Bewegung gesetzt wird.10. The device according to claim 9, characterized in that a position-dependent or mass-actuated switch in the transmitter attached to the wheel (5a, 5b) is arranged and controls a switching element (30,31) with a large time constant as soon as the wheel in question is set in motion becomes. 11. Einrichtung nach einem der Ansprüche 1 bis 10, dadurch gekennzeichnet, daß der Sender (10) mit mindestens einem Druckfühler (44) als Einheit (5b) auf der Radnabe befestigt ist und daß an dieser Einheit (5b) mindestens ein Reifenfüllventil (9) angebracht ist.11. Device according to one of claims 1 to 10, characterized in that the transmitter (10) with at least one pressure sensor (44) as a unit (5b) is attached to the wheel hub and in that unit (5b) at least one tire inflation valve (9th ) is attached. 12. Einrichtung nach einem der Ansprüche 1 bis 11, dadurch gekennzeichnet, daß nach längerer Betriebspause des Fahrzeuges die Überwachungsanzeige durch Verzögerungsmittelgleichzeitig für alle Reifen wieder hergestellt wird..12. Device according to one of claims 1 to 11, characterized in that after a long break in operation of the vehicle, the monitoring display is simultaneously restored for all tires by means of delay. 13. Einrichtung nach einem der Ansprüche 1 bis 12, dadurch gekennzeichnet , daß im Führerstand des Fahrzeuges (1) eine Überwachungseinrichtung (2) mit einem Kontrollgerät (50) angebracht ist, welches optische Anzeigemittel (52) für den Druckfall jedes einzelnen Reifens des Fahrzeuges (1) enthält.13. Device according to one of claims 1 to 12, characterized in that in the driver's cab of the vehicle (1) a monitoring device (2) with a control device (50) is attached, which optical display means (52) for the pressure drop of each individual tire of the vehicle (1) contains.
EP80101118A 1979-03-12 1980-03-05 Tyre pressure monitoring device Expired EP0016991B1 (en)

Applications Claiming Priority (2)

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SE7902187A SE7902187L (en) 1979-03-12 1979-03-12 DEVICE FOR MONITORING OF RING PRESSURE WHEELS ON A VEHICLE
SE7902187 1979-03-12

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EP0016991A2 true EP0016991A2 (en) 1980-10-15
EP0016991A3 EP0016991A3 (en) 1981-10-21
EP0016991B1 EP0016991B1 (en) 1984-10-10

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EP0087138A1 (en) * 1982-02-19 1983-08-31 Hitachi, Ltd. Power supply system for automotive parts having a rotary component
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Also Published As

Publication number Publication date
DE3069396D1 (en) 1984-11-15
SE7902187L (en) 1980-09-13
EP0016991B1 (en) 1984-10-10
EP0016991A3 (en) 1981-10-21

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